How does an inductor respond to a sudden change in current?

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Prepare for the NCCER Introduction to Electrical Circuits exam with our comprehensive quiz, featuring multiple choice questions and detailed explanations to boost your confidence and knowledge. Master concepts and ensure exam success!

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How does an inductor respond to a sudden change in current?

An inductor responds to a sudden change in current by generating a voltage that opposes that change. When the current through a coil changes, the magnetic field around it changing induces an emf in the windings that acts to oppose the change in current (Lenz's law). The induced voltage is proportional to how quickly the current is changing (V = L di/dt). So if the current tries to rise quickly, the induced voltage acts opposite to the applied current and slows the rise; if the current tries to fall, the inductor’s voltage tries to keep current flowing. This behavior is also why an inductor stores energy in its magnetic field. It does not automatically become a short circuit or stop current by itself.

How does an inductor respond to a sudden change in current?

Prepare for the NCCER Introduction to Electrical Circuits exam with our comprehensive quiz, featuring multiple choice questions and detailed explanations to boost your confidence and knowledge. Master concepts and ensure exam success!

How does an inductor respond to a sudden change in current?

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